201008611 九、發明說明: • 【發明所屬之技術領域】 本發明是提供一種高爾夫球桿頭製作方法,主要是對 球桿頭的上、下侧蓋體在加工實施可透過一次將兩個預製 作的蓋體呈交錯/非交錯方位設置,以使兩蓋體在成型過程 中可藉其間的一截餘料來對成型時所產生的延伸力形成一 相互牽引,以對成型出的兩蓋體在經一餘料裁切後可獲有 接觸面密切的球桿頭其上、下蓋體設置。 〇 【先前技術】 按 目則業界對擊遠距離球的木桿其球桿頭在加工上 為使擊球時提高其擊球出的速度及增加開球距離,皆會以 金屬基複合材在藉由壓鑄成型出所須的球桿頭其上、下蓋 體,再經由NC銑床將壓鑄完成其不平整的接觸面予以研磨 、:但此種做法加工時間太長且成本太高。因此業者亦改以 沖床方式將金屬基複合材以—次—個的加卫出所須的球桿 碩該上、下蓋體,但該種藉沖壓方式則易使上、下蓋體其 。σ面因冲壓時的方位延展以致有邊界變形現象/戋在取 時發生部份周邊變形’導致上、下蓋體在相靠合時 个付Μ不良的淘汰品,且該複合材料 疋,價位材料,若在製程的淘汰率過高則其 相對的提高。 机个1文 在此-併揭舉-相關業者設計並公開在96^月iia ^田號.I 270421「高爾夫球頭怪溫鍛造方法 轉頭的成型方法是取用—金屬片材再㈣溫鍛造成型案 201008611 切邊、機械加工流程 的球桿頭。 進行噴砂的表面處理而完成一所須 【發明内容】 —本發明即是依既有作為木桿其組成球桿頭的上、下侧 盍體在加工實施存有的缺失來作改善,以期該球桿頭的上 、下側蓋體在加工實施可透過—次將兩個預製作的蓋體呈 交錯/非交錯方位設置,以使兩蓋體在成型過程中可藉其間 的:截餘料來對成型時所產生的延伸力形成一相互牵引並 且付到較佳部品邊界(End 0i Part),以對成型出的兩蓋體 在經一裁切後可獲有接觸面密切的球桿頭其上、下蓋體 置。 ° 本發明之主要目的,是對球桿頭的上、下側蓋體在加 工步驟:是依預加工的球桿頭其上、下蓋體寬幅及表面曲 率來取決出二至少可作兩只單位蓋體在呈交錯/非交錯方 位设置的面積,及在兩單位蓋體成型的交界段落則保留一 ❹截作為成型時其延伸力可予以相抗衡的餘料其總合寬幅及 所須厚度的金屬基複合材,在透過成型過程以對兩只呈交 ,/非交錯方位設置的單位蓋體予以一體成型出,同時對兩 單位蓋體在成型時所產生的延伸力則可透過其交界方位的 該截餘料形成一相互牽引,以使成型出的兩單位蓋體在經 一餘料裁切後可獲有接觸面密切及較佳部品邊界(End 〇f Part)的球桿頭其上、下蓋體設置。 本發明之第二目的,是對允許至少成型出兩只呈交錯/ 非交錯方位的單位蓋體其交界段落所保留的該截餘料,是 201008611 依球桿頭其上、下單位蓋體的表面曲率來作一取決。 本發明之第三目的,是對允許至少成型出兩只、呈交錯/ 非父錯方位的單位蓋體在每次的成型過程是可作同 頭其靠下方位的單位蓋體。 于 本發明之第四目的 非交錯方位的單位蓋體 頭其靠上方位的單位蓋 ,是對允許至少成型出兩只呈交錯/ 在每次的成型過裎是可作同為球桿 體。201008611 IX. Description of the invention: • Technical field to which the invention pertains The present invention provides a method for manufacturing a golf club head, which is mainly for performing two pre-productions on the upper and lower side covers of the club head in a processing manner. The cover body is arranged in a staggered/non-staggered orientation so that the two cover bodies can be pulled together by the extension force generated during the molding process during the molding process to form the two cover bodies. After cutting through a surplus material, the upper and lower cover bodies of the club head with close contact surface can be obtained. 〇[Prior Art] According to the industry, the clubs that hit the long-distance ball have their club heads processed. In order to increase the speed of hitting the ball and increase the distance of the ball, the metal-based composites will be used. The upper and lower cover bodies of the required club head are formed by die casting, and the uneven contact surface is die-cast by the NC milling machine, but the processing time is too long and the cost is too high. Therefore, the manufacturer has also changed the metal-based composite material to the upper and lower cover bodies by means of punching, but this type of stamping method is easy to make the upper and lower covers. The σ plane is extended due to the azimuth during stamping, so that there is a boundary deformation phenomenon/partial peripheral deformation occurs when the pick-up occurs, which causes the upper and lower lid bodies to be defective when they are close together, and the composite material is defective. The material, if the elimination rate of the process is too high, its relative increase. The machine is here - and unveiled - the relevant industry designed and published in the 96 ^ month iia ^ field No. I 270421 "The golf ball head temperature forging method rotor forming method is to take - metal sheet and then (four) temperature Forging type 201008611 Club head for trimming and machining process. Performing sandblasting surface treatment to complete a requirement [Summary of the Invention] - The present invention is based on the upper and lower sides of the club head which is formed as a wooden pole The defect of the carcass is improved in the processing implementation, so that the upper and lower side covers of the club head are permeable in processing, and the two prefabricated covers are arranged in a staggered/non-interlaced orientation so that During the molding process, the two covers can be pulled by the residual force generated during the forming process and paid to the better part boundary (End 0i Part) to form the two cover bodies. After the cutting, the upper and lower cover bodies of the club head with close contact surface can be obtained. ° The main purpose of the invention is to process the upper and lower side covers of the club head in the processing step: according to the pre-processing The club head has a wide width and surface curvature depending on the upper and lower covers. The second can be used as the area where the two unit covers are arranged in a staggered/non-interlaced orientation, and the boundary between the two unit covers is retained as a residual material which can be counterbalanced when the forming force is formed. The metal-based composite material with the total width and the required thickness is integrally formed by the unit cover body which is disposed in two intersecting/non-interlaced directions during the through-molding process, and simultaneously produces the two-unit cover body during molding. The extension force can form a mutual traction through the intercepting material of the boundary orientation, so that the formed two-unit cover body can obtain a close contact surface and a better part boundary after cutting through a residual material (End 〇 The club head of f Part) is disposed on the upper and lower covers. The second object of the present invention is to retain the cut-off material in the boundary section of the unit cover body which allows at least two staggered/non-interlaced orientations to be formed. , 201008611 depends on the surface curvature of the upper and lower unit covers of the club head. The third object of the present invention is to allow at least two unit heads that are formed in a staggered/non-parent orientation. Every molding process is The unit cover can be made in the lower direction of the head. In the fourth object of the present invention, the unit cover of the unit head of the non-interlaced orientation is in the upper direction, and is allowed to form at least two interlaced/at each time. The formed over-twist can be used as the same as the club body.
本發明之第五目的,是對允許至少成型出兩只呈交錯/ 非父錯方位的單位蓋體在每次的成型過程是可作球桿頭其 合為一組的上、下單位蓋體。 、 【實施方式】 本發明設計的高爾夫球桿頭製作方法,主I是對球桿 頭⑷(如第五、六圖)的構件是包含有一下蓋⑴、上蓋 (W擊麵板⑶所組成;在此科以針賴成球桿頭 =)其間的上、下側蓋體(2、1)(如第一〜四圖)來作加工, .〇其中對,下側的蓋體⑴加工步驟(如第―、二圖): a.是依預加工的球桿頭其靠下側蓋體寬幅及表面曲率 取决出一至少可作兩只單位蓋體⑴)在呈交錯,非交錯 二::的面積’及在兩單位蓋體⑴)成型的交界段落則 織人當作為成型時其延伸力可予以相抗衡的餘料(12)其 寬幅及賴厚度的金屬基複合材⑽(在此的金屬基 複合材是以鈦合金片材為實施)。 的留/ ^透過成型過程以對兩只呈交錯/非交錯方位設置 、立冑⑴)予以一體成型出,同時對兩單位蓋體⑴) 201008611 .在成里時所產生的延伸力則可透過其交界方位的該截餘料 (/成相互牽引(如第二圖),使兩單位蓋體(11)不 致發生邊界變形。 7 C.對該成型出的兩單位蓋體(11)在經一餘料(12)裁切 後即可獲有接觸面密切的球桿頭其靠下側蓋體〇)設置(如 第五圖)。 另對靠上側的蓋體(2)(如第三、四圖)其加工步驟是 與前述的靠下侧蓋體⑴方式是一致,差異僅在該取決出的 金屬基複合材(23)是必須依靠上側蓋體⑵其寬幅及表面 j率來作所須面積及允許兩只單位蓋體(21)在呈交錯/非 交錯方位設置的面積,及依球桿頭其靠上側單位蓋體⑻ 的表面曲率來取決出保留在兩單位蓋體(21)其交界段落的 餘料(22)間距(在此該靠上側單位蓋體(21)其表面曲率較 大則其餘料(22)間距較小,相對的如第二圖該靠下側單位 蓋體(11)其表面曲率較小則其餘料(12)間距較大),以作 .◎為兩單位蓋體(21)在成型時其延伸力可予以相抗衡;依此 使該成型出的兩單位蓋體(21)在經一餘料(22)裁切後可獲 有接觸面密切的球桿頭其靠上側蓋體(2)設置(如第五圖)。 同時對每次成型出的兩單位蓋體(11)在方位設置上除 了可作交錯/非交錯方位外,亦可呈一角度外擴設置(如第 七圖);或將兩單位蓋體(11)其方位除具交錯設置外一併 的亦作相反設置(如第八圖),依此在透過成型出所須寬 幅及表面曲率的上、下側蓋體。 在此對允許至少成型出兩只呈交錯/非交錯方位的單 201008611 位盍體在每次的士 .單位蓋體⑴=程是可作同為球桿頭其 靠下方位的 位的單位蓋體(哲=圖)、或同為球桿頭其靠上方 為一組的上、下單你ί第三、四圖)、抑作為球捍頭其合 _、 下早位蓋體(21、U)。 經以上設計的球桿頭其上、 如下優點: 厂盖體作加工實施是具有 〇 】·該球桿頭的上、下側蓋體在 將兩個預製作的蓋體呈 疋可透過一次 在成型過程中可藉並門的一3交錯方位設置’以使兩蓋體 伸力形成一相互“;:·餘料來對成型時所產生的延 2.該透過成型過程完成的兩蓋體n 可獲有接觸面密切及較佳部σ Iχ 、; 其上、下^ 邊界(End〇f pa⑴的球桿頭 不良品::㈣球桿頭—中可確切降低 201008611 【圖式簡單說明】 第一圖:本發明球桿頭其下側蓋體的加工實施立體示意 第二圖:本發明球桿頭其下侧蓋體的加工實施俯視示意 第三圖:本發明球桿頭其上側蓋體的加工實施立體示意 第四圖:本發明球桿頭其上側蓋體的加工實施俯視示意 第五圖:本發明球桿頭的構件分解立體圖 第六圖:本發明球桿頭的立體外觀圖 ❹ 第七圖:本發明球桿頭其單位蓋體的其二加工實施示意 第八圖:冰發明球桿頭其單位蓋體的其三加工實施示意 【主要元件符號說明】 “ 〔本發明〕 (Π、21)單位蓋體 (13、23)金屬基/非金屬基複合材 (3)擊球面板 (1) 下蓋 (12、22)餘料 (2) 上蓋 (4)球桿頭The fifth object of the present invention is to provide a unit cover body which can form at least two staggered/non-parent orientations, and can be used as a set of upper and lower unit covers in each molding process. . [Embodiment] The golf club head manufacturing method designed by the present invention, the main I is a member of the club head (4) (such as the fifth and sixth figures) comprising a lower cover (1) and an upper cover (the W-panel (3)) In this section, the upper and lower side covers (2, 1) (such as the first to the fourth figure) are processed by the needle head =), and the lower side cover (1) processing step ( For example, the first and second figures: a. According to the pre-processed club head, the width of the lower side cover and the curvature of the surface depend on at least two units of the cover body (1). The area of 'and the junction between the two units of the cover (1)) is the remainder of the material that can be countered by the extension force when forming (12) the width and thickness of the metal matrix composite (10) (in The metal matrix composite is made of a titanium alloy sheet. The retention / ^ through the forming process to two sets of staggered / non-interlaced orientation, the vertical 胄 (1)) is integrally formed, while the two units of the cover (1)) 201008611. The extension force generated in Chengli can pass through The intercepting material of the boundary orientation (/, which is pulled to each other (as shown in the second figure), causes the two unit covers (11) to be free from boundary deformation. 7 C. The formed two unit cover (11) is in the After the remaining material (12) is cut, the club head with the close contact surface can be obtained (the lower side cover body)) (as shown in the fifth figure). The processing steps of the upper cover body (2) (such as the third and fourth figures) are the same as the above-mentioned lower side cover body (1), and the difference is only in the determined metal matrix composite (23). It is necessary to rely on the width and surface J of the upper side cover (2) to make the required area and allow the two unit covers (21) to be placed in an interlaced/non-interlaced orientation, and the upper cover of the club head. The surface curvature of (8) depends on the residual material (22) spacing remaining in the boundary section of the two-unit cover (21) (here the upper side unit cover (21) has a larger surface curvature and the remaining material (22) spacing Smaller, as shown in the second figure, the lower unit cover body (11) has a smaller surface curvature and the remaining material (12) has a larger spacing), so that the two-unit cover body (21) is formed during molding. The extension force can be counterbalanced; accordingly, the formed two-unit cover body (21) can be obtained by cutting the left side cover body after being cut by a residual material (22) (2) ) settings (as shown in the fifth figure). At the same time, in addition to the staggered/non-interlaced orientation of the two-unit cover (11) formed each time, the two-unit cover (11) can also be expanded at an angle (as shown in the seventh figure); or two units of the cover ( 11) The orientation of the orientation is reversed (see the eighth diagram) in addition to the staggered arrangement, whereby the upper and lower side covers of the required width and surface curvature are formed through the transmission. Here, it is allowed to form at least two single 201008611 carcasses in a staggered/non-interlaced orientation. Each time the taxi unit cover (1)= is a unit cover that can be used as the lower position of the club head. Body (zhe = map), or the same as the club head, the top and bottom of the group are you, the third and fourth pictures, and the ball head, the lower cover (21, U). The above-designed club head has the following advantages: The factory cover body is processed and implemented. The upper and lower side covers of the club head are permeable to the two prefabricated covers. During the molding process, a 3rd staggered orientation of the door can be set to "make the two caps stretch to form a mutual";: the remaining material is formed during the forming process. 2. The two covers n completed by the through molding process The contact surface is close and the better part σ Iχ ,; the upper and lower ^ boundary (End 〇 pa pa pa Pa Pa Pa 〇 : : : : : : : : : 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 Figure 1 is a perspective view showing the processing of the lower side cover of the club head of the present invention. The second embodiment is a top view of the processing of the lower side cover of the club head of the present invention. The third figure: the upper side cover of the club head of the present invention 4 is a top view of the processing of the upper side cover of the club head of the present invention. FIG. 5 is an exploded perspective view of the club head of the present invention. FIG. 6 is a perspective view of the club head of the present invention. Figure 7: The second part of the club head of the present invention Schematic diagram of processing implementation: Figure 3: Schematic diagram of the three processing of the unit cover of the ice inventor head [Description of main components] [Invention] (Π, 21) Unit cover (13, 23) Metal base / non Metal-based composite (3) hitting panel (1) lower cover (12, 22) residual material (2) upper cover (4) club head